Outdoor unit for air-conditioning apparatus

ABSTRACT

An outdoor unit for an air-conditioning apparatus according to the present disclosure includes a heat exchanger comprised of an upper heat exchanger and a lower heat exchanger that are arranged in an up-down direction, an accumulator configured to store refrigerant, a casing, an inside of which is partitioned by a partition plate into an air-sending chamber accommodating the heat exchanger and a machine chamber accommodating the accumulator, and a fixing component configured to be fixed to the heat exchanger and the accumulator so that the accumulator is fixed to the heat exchanger, wherein the fixing component is fixed to both of the upper heat exchanger and the lower heat exchanger.

TECHNICAL FIELD

The present disclosure relates to an outdoor unit for anair-conditioning apparatus, and more particularly, to a fixing structureof an accumulator provided in the outdoor unit for an air-conditioningapparatus.

BACKGROUND ART

Some of typical outdoor units for an air-conditioning apparatus areprovided with an accumulator configured to store surplus refrigerantduring operation. In particular, outdoor units for an air-conditioningapparatus that allow for individual control of a plurality of indoorunits is provided with an accumulator configured to store surplusrefrigerant during operation. In the typical outdoor unit for anair-conditioning apparatus, the inside of a casing is partitioned by apartition plate into an air-sending chamber accommodating a heatexchanger and other devices therein and a machine chamber accommodatinga compressor and other devices therein. The accumulator is accommodatedin, for example, the machine chamber.

For example, from the viewpoint of reducing the size of the machinechamber, the conventional outdoor unit for an air-conditioning apparatusmay have a configuration in which the accumulator is fixed to acomponent forming a side wall of the machine chamber without beingdirectly provided on a lower surface portion of the casing. For example,in the outdoor unit for an air-conditioning apparatus disclosed inPatent Literature 1, the accumulator is fixed to the partition plate. Inaddition, there is also known a conventional outdoor unit for anair-conditioning apparatus having a configuration in which theaccumulator accommodated in the machine chamber is fixed to a heatexchanger.

CITATION LIST Patent Literature

Patent Literature 1: Japanese Unexamined Patent Application PublicationNo. 2009-85465

SUMMARY OF INVENTION Technical Problem

For example, as the capacity of the air-conditioning apparatus isincreased, the heat exchanger of the outdoor unit may be increased insize. In such a case, the heat exchanger of the outdoor unit may becomprised of two heat exchangers arranged in an up-down direction due tomanufacturing constraints of the heat exchanger. That is, the heatexchanger of the outdoor unit may be comprised of a lower heat exchangerand an upper heat exchanger disposed above the lower heat exchanger. Inthe case where the accumulator is to be fixed to the heat exchangerbeing thus comprised of the upper heat exchanger and the lower heatexchanger in the conventional configuration, the accumulatoraccommodated in the machine chamber is fixed to one of the upper heatexchanger or the lower heat exchanger.

The size of the accumulator is increased in proportion to an amount ofrefrigerant circulating through a refrigerant circuit of theair-conditioning apparatus, that is, in proportion to the size of theheat exchanger of the outdoor unit. This is because a maximum amount ofsurplus refrigerant that may be generated during operation is increased.Therefore, the accumulator provided in the outdoor unit for anair-conditioning apparatus that includes the upper heat exchanger andthe lower heat exchanger is increased in size, which leads to anincrease in weight. Accordingly, when such an accumulator having a largeweight is fixed to the heat exchanger in the conventional configuration,the following problems occur.

As described above, in the outdoor unit for an air-conditioningapparatus that includes the upper heat exchanger and the lower heatexchanger, when the accumulator accommodated in the machine chamber isto be fixed to the heat exchanger in the conventional configuration, theaccumulator is fixed to one of the upper heat exchanger and the lowerheat exchanger. Therefore, the weight of the accumulator is supported byonly one of the upper heat exchanger and the lower heat exchanger. Thevibration of the accumulator generated during transportation oroperation of the air-conditioning apparatus acts on only one of theupper heat exchanger and the lower heat exchanger. Accordingly, in theoutdoor unit for an air-conditioning apparatus that includes the upperheat exchanger and the lower heat exchanger, when the accumulatoraccommodated in the machine chamber is to be fixed to the heat exchangerin the conventional configuration, the upper heat exchanger or lowerheat exchanger to which the accumulator is fixed may be damaged.

An object of an outdoor unit of the present disclosure, which has beenmade to overcome the above problems, is to provide an outdoor unit foran air-conditioning apparatus capable of preventing damage to an upperheat exchanger and a lower heat exchanger even when an accumulator isfixed to a heat exchanger being comprised of the upper heat exchangerand the lower heat exchanger.

Solution to Problem

An outdoor unit for an air-conditioning apparatus of an embodiment ofthe present disclosure includes a heat exchanger comprised of an upperheat exchanger and a lower heat exchanger that are arranged in anup-down direction, an accumulator configured to store refrigerant, acasing, an inside of which is partitioned by a partition plate into anair-sending chamber accommodating the heat exchanger and a machinechamber accommodating the accumulator, and a fixing component configuredto be fixed to the heat exchanger and the accumulator so that theaccumulator is fixed to the heat exchanger, wherein the fixing componentis fixed to both of the upper heat exchanger and the lower heatexchanger.

Advantageous Effects of Invention

In an outdoor unit for an air-conditioning apparatus of an embodiment ofthe present disclosure, an accumulator accommodated in a machine chamberis fixed to both of an upper heater exchanger and a lower heat exchangerby a fixing component. Therefore, the outdoor unit for anair-conditioning apparatus of the embodiment of the present disclosurecan prevent the accumulator from being supported by only one of theupper heat exchanger and the lower heat exchanger. Moreover, in theoutdoor unit for an air-conditioning apparatus of an embodiment of thepresent disclosure, the vibration of the accumulator generated duringtransportation or operation of the air-conditioning apparatus can beprevented from acting on only one of the upper heat exchanger and thelower heat exchanger. Accordingly, the outdoor unit for anair-conditioning apparatus of the embodiment of the present disclosurecan prevent the upper heat exchanger and lower heat exchanger from beingdamaged.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a perspective view illustrating an outdoor unit for anair-conditioning apparatus according to an embodiment of the presentdisclosure when the outdoor unit is viewed from the front of the outdoorunit.

FIG. 2 is a perspective view illustrating the outdoor unit for anair-conditioning apparatus according to the embodiment of the presentdisclosure when the outdoor unit is viewed from the rear side of theoutdoor unit.

FIG. 3 is an exploded perspective view illustrating a heat exchanger ofthe outdoor unit for an air-conditioning apparatus according to theembodiment of the present disclosure when the heat exchanger is viewedfrom the front of the heat exchanger.

FIG. 4 is a cross-sectional view illustrating the outdoor unit for anair-conditioning apparatus according to the embodiment of the presentdisclosure.

FIG. 5 is a perspective view illustrating an accumulator of the outdoorunit for an air-conditioning apparatus according to the embodiment ofthe present disclosure,

FIG. 6 is a front view illustrating the vicinity of a fixing portionbetween the heat exchanger and the accumulator in the outdoor unit foran air-conditioning apparatus according to the embodiment of the presentdisclosure.

FIG. 7 is a plan view illustrating the vicinity of a fixing portionbetween the heat exchanger and the accumulator in the outdoor unit foran air-conditioning apparatus according to the embodiment of the presentdisclosure.

FIG. 8 is a diagram with a partition plate omitted from FIG. 6.

FIG. 9 is a perspective view illustrating a first fixing component inthe outdoor unit for an air-conditioning apparatus according to theembodiment of the present disclosure.

FIG. 10 is a perspective view illustrating a second fixing component inthe outdoor unit for an air-conditioning apparatus according to theembodiment of the present disclosure.

DESCRIPTION OF EMBODIMENTS

FIG. 1 is a perspective view illustrating an outdoor unit for anair-conditioning apparatus according to an embodiment of the presentdisclosure when the outdoor unit is viewed from the front of the outdoorunit. FIG. 2 is a perspective view illustrating the outdoor unit for anair-conditioning apparatus according to the embodiment of the presentdisclosure when the outdoor unit is viewed from the rear side of theoutdoor unit. FIG. 3 is an exploded perspective view illustrating a heatexchanger of the outdoor unit for an air-conditioning apparatusaccording to the embodiment of the present disclosure when the heatexchanger is viewed from the front of the heat exchanger. FIG. 4 is across-sectional view illustrating the outdoor unit for anair-conditioning apparatus according to the embodiment of the presentdisclosure. Note that FIG. 4 is a diagram of an outdoor unit 1 that iscut in the lateral direction at a position of a lower heat exchanger 40described later and is observed from above.

The outdoor unit 1 for an air-conditioning apparatus includes, forexample, a casing 10 having a substantially cuboid shape. An air outlet15 is formed in a front surface portion of the casing 10. Note that inthe present embodiment, two air outlets 15 are formed. Two outdoor fans3 are accommodated in the casing 10 to face the respective air outlets15. Each of the two outdoor fans 3 is, for example, a propeller fan. Aposition in a height direction of one of rotation axes of the twooutdoor fans 3 is disposed at a position substantially identical to acenter in the height direction of an upper heat exchanger 30 describedlater. A position in the height direction of the other rotation axis ofthe two outdoor fans 3 is disposed at a position substantially identicalto a center in the height direction of the lower heat exchanger 40described later.

An air inlet 14 is also formed in the casing 10. A heat exchanger 20 isaccommodated in the casing 10 to face the air inlet 14. Note that in thepresent embodiment, an air inlet 14 a and an air inlet 14 b are formedas the air inlet 14. The air inlet 14 a is formed in a rear surfaceportion of the casing 10. The air inlet 14 b is formed in a side surfaceportion of the casing 10. Therefore, the heat exchanger 20 disposed toface the air inlet 14 is formed into a substantially L shape in planview. That is, when the outdoor fan 3 is driven, outdoor air is suckedinto the casing 10 from the air inlet 14. Then, the outdoor air havingbeen sucked into the casing 10 passes through the heat exchanger 20, andthereafter is blown from the air outlet 15 toward outside of the casing10.

The heat exchanger 20 according to the present embodiment includes thelower heat exchanger 40 provided on a bottom plate 16 forming a lowersurface portion of the casing 10, and the upper heat exchanger 30provided above of the lower heat exchanger 40. That is, the heatexchanger 20 includes the upper heat exchanger 30 and the lower heatexchanger 40 that are arranged in the up-down direction. Note that theupper heat exchanger 30 and the lower heat exchanger 40 are not limitedto particular types, but in the present embodiment, each of the upperheat exchanger 30 and the lower heat exchanger 40 is a fin-and-tube heatexchanger.

More specifically, the upper heat exchanger 30 includes a plurality ofupper heat exchanger units 35 that are arranged side by side along aflow direction of air flowing in the casing 10 at driving of the outdoorfan 3. Each of the upper heat exchanger units 35 includes a plurality ofheat transfer fins 32 that are arranged side by side at predeterminedintervals in the lateral direction, and a plurality of heat transfertubes 33 that extend through the heat transfer fins 32 in an arrangementdirection of the heat transfer fins 32. End portions of the heattransfer tubes 33 are connected by U-shaped connecting pipes 34, forexample. The upper heat exchanger 30 includes an end plate 31 that isprovided in an end portion on a closer side to a machine chamber 13described later to connect each of the upper heat exchanger units 35.More specifically, the end plate 31 is disposed to face the heattransfer 32 that is the closest to the machine chamber 13 side in eachof the upper heat exchanger units 35. Note that the upper heat exchanger30 may be comprised of one upper heat exchanger unit 35.

Here, the end plate 31 corresponds to a first end plate of the presentdisclosure.

Similarly, the lower heat exchanger 40 includes a plurality of lowerheat exchanger units 45 that are arranged side by side along a flowdirection of air flowing in the casing 10 at driving of the outdoor fan3. Each of the lower heat exchanger units 45 includes a plurality ofheat transfer fins 42 that are arranged side by side at predeterminedintervals in the lateral direction, and a plurality of heat transfertubes 43 that extend through the heat transfer fins 42 in an arrangementdirection of the heat transfer fins 42. End portions of the heattransfer tubes 43 are connected by U-shaped connecting pipes 44, forexample. The lower heat exchanger 40 includes an end plate 41 that isprovided in an end portion on a closer side to the machine chamber 13described later to connect each of the lower heat exchanger units 45.More specifically, the end plate 41 is disposed to face the heattransfer fin 42 that is the closest to the machine chamber 13 side ineach of the lower heat exchanger units 45. Note that the lower heatexchanger 40 may be comprised of one lower heat exchanger unit 45.

Here, the end plate 41 corresponds to a second end plate of the presentdisclosure.

In relation to detailed description of the inside of the casing 10, asillustrated in FIG. 4, the inside of the casing 10 is partitioned by apartition plate 11 into an air-sending chamber 12 and a machine chamber13. The air-sending chamber 12 accommodates the above-described heatexchanger 20 and outdoor fan 3. That is, the air inlet 14 and the airoutlet 15 are formed in a portion forming the air-sending chamber 12 inthe casing 10. The machine chamber 13 accommodates an accumulator 50configured to store surplus refrigerant. In the present embodiment, themachine chamber 13 also accommodates a compressor 2. Note that in thepresent embodiment, a rear side end portion of the partition plate 11 isfixed to the end plate 31 of the upper heat exchanger 30 and the endplate 41 of the lower heat exchanger 40 by, for example, screwing. Thatis, the end plate 31 of the upper heat exchanger 30 and the end plate 41of the lower heat exchanger 40 have a function of partitioning into theair-sending chamber 12 and the machine chamber 13, together with thepartition plate 11.

In the outdoor unit 1 according to the present embodiment, theaccumulator 50 accommodated in the machine chamber 13 is fixed to theheat exchanger 20 by a fixing component 60. Hereinafter, a fixingstructure of the accumulator 50 to the heat exchanger 20 will bedescribed in detail.

FIG. 5 is a perspective view illustrating the accumulator of the outdoorunit for an air-conditioning apparatus according to the embodiment ofthe present disclosure.

FIG. 6 is a front view illustrating the vicinity of a fixing portionbetween the heat exchanger and the accumulator in the outdoor unit foran air-conditioning apparatus according to the embodiment of the presentdisclosure. FIG. 7 is a plan view illustrating the vicinity of a fixingportion between the heat exchanger and the accumulator in the outdoorunit for an air-conditioning apparatus according to the embodiment ofthe present disclosure. FIG. 8 is a diagram with the partition plateomitted from FIG. 6. Note that FIG. 5 also illustrates a first fixingcomponent 70 forming part of the fixing component 60, and a supportcomponent 90, in addition to the accumulator 50.

As illustrated in FIG. 5, the accumulator 50 includes, for example, anupper id component 51, a cylindrical component 52, a lower lid component53, and a connecting pipe 54. The cylindrical component 52 is acomponent formed in a cylindrical shape. The upper lid component 51 is acomponent forming an upper surface portion of the accumulator 50 toclose an upper opening of the cylindrical component 52. The lower lidcomponent 53 is a component forming a lower surface portion of theaccumulator 50 to close a lower opening of the cylindrical component 52.The connecting pipe 54 is a component connected with a refrigerant pipeforming the refrigerant circuit to allow communication between theinside of the accumulator 50 and the refrigerant circuit.

As illustrated in FIG. 6 to FIG. 8, the outdoor unit 1 includes thefixing component 60 fixed to the heat exchanger 20 and the accumulator50. That is, the accumulator 50 is fixed to the heat exchanger 20 by thefixing component 60. The fixing component 60 is fixed to both of theupper heat exchanger 30 and the lower heat exchanger 40.

In the present embodiment, the accumulator 50 and the fixing component60 are fixed to each other by welding, Moreover, as illustrated in FIG.8, the fixing component 60 and the upper heat exchanger 30 are fixedlyscrewed to each other. More specifically, a through hole 85 throughwhich a male screw 87 passes is formed in the fixing component 60. Forthe through hole 85, see FIG. 10 described later. Meanwhile, a femalethread into which the male screw 87 is screwed is formed in the endplate 31 of the upper heat exchanger 30. The male screw 87 having passedthrough the through hole 85 in the fixing component 60 is screwed intothe female thread in the end plate 31 of the upper heat exchanger 30,whereby the fixing component 60 and the upper heat exchanger 30 arefixed to each other.

Similarly, as illustrated in FIG. 8, the fixing component 60 and thelower heat exchanger 40 are fixedly screwed to each other. Morespecifically, a through hole 86 through which a male screw 88 passes isformed in the fixing component 60. For the through hole 86, see FIG. 10described later. Meanwhile, a female thread into which the male screw 88is screwed is formed in the end plate 41 of the lower heat exchanger 40.The male screw 88 having passed through the through hole 86 in thefixing component 60 is screwed into the female thread in the end plate41 of the lower heat exchanger 40, whereby the fixing component 60 andthe lower heat exchanger 40 are fixed to each other.

When the fixing component 60 is thus fixed to both of the upper heatexchanger 30 and the lower heat exchanger 40, the accumulator 50accommodated in the machine chamber 13 is fixed to both of the upperheat exchanger 30 and the lower heat exchanger 40. Therefore, when thefixing component 60 is thus fixed to both of the upper heat exchanger 30and the lower heat exchanger 40, the accumulator 50 can be preventedfrom being supported by only one of the upper heat exchanger 30 and thelower heat exchanger 40. In addition, when the fixing component 60 isthus fixed to both of the upper heat exchanger 30 and the lower heatexchanger 40, the vibration of the accumulator 50 generated duringtransportation or operation of the air-conditioning apparatus can beprevented from acting on only one of the upper heat exchanger 30 and thelower heat exchanger 40. Accordingly, when the fixing component 60 isthus fixed to both of the upper heat exchanger 30 and the lower heatexchanger 40, the upper heat exchanger 30 and lower heat exchanger 40can be prevented from being damaged.

As illustrated in FIG. 6 and FIG. 7, the outdoor unit 1 according to thepresent embodiment is configured to sandwich the partition plate 11between the end plate 31 of the upper heat exchanger 30 and the fixingcomponent 60. Therefore, a through hole through which the male screw 87passes is formed in the partition plate 11. However, as illustrated inFIG. 8, the fixing component 60 is fixed to the end plate 31 of theupper heat exchanger 30. Similarly, the outdoor unit 1 according to thepresent embodiment is configured to sandwich the partition plate 11between the end plate 41 of the lower heat exchanger 40 and the fixingcomponent 60. Therefore, a through hole through which the male screw 88passes is formed in the partition plate 11. However, as illustrated inFIG. 8, the fixing component 60 is fixed to the end plate 41 of thelower heat exchanger 40.

Note that an attachment position of the fixing component 60 to theaccumulator 50 is merely an example. In addition to the accumulator 50,other components are also accommodated in the machine chamber 13.Therefore, the arrangement position of the accumulator 50 in the machinechamber 13 changes according to the positions of the other componentsaccommodated in the machine chamber 13, to prevent the accumulator 50from interfering with the other components. Therefore, the attachmentposition of the fixing component 60 to the accumulator 50 differsaccording to the positions of the other components accommodated in themachine chamber 13.

The above-described fixing structure of the fixing component 60 to theupper heat exchanger 30 is merely an example. For example, the fixingcomponent 60 may be welded or otherwise fixed to the end plate 31 of theupper heat exchanger 30, so that the fixing component 60 is fixed to theupper heat exchanger 30 in a configuration other than screwing with themale screw 87. Alternatively, for example, when the upper heat exchanger30 has a component other than the end plate 31, the component beingcapable of fixing the fixing component 60, the fixing component 60 maybe fixed to the component. Similarly, the above-described fixingstructure of the fixing component 60 to the lower heat exchanger 40 ismerely an example. For example, the fixing component 60 may be welded orotherwise fixed to the end plate 41 of the lower heat exchanger 40, sothat the fixing component 60 is fixed to the lower heat exchanger 40 ina configuration other than screwing with the male screw 88.Alternatively, for example, when the lower heat exchanger 40 has acomponent other than the end plate 41, the component being capable offixing the fixing component 60, the fixing component 60 may be fixed tothe component.

Moreover, the outdoor unit 1 according to the present embodimentincludes the support component 90, and the accumulator 50 is alsosupported by the support component 90. More specifically, the lower endportion of the support component 90 is fixed to the bottom plate 16forming a lower surface portion of the casing 10 by, for example,screwing. In addition, the upper end portion of the support component 90is fixed to the lower lid component 53 forming a lower surface portionof the accumulator 50 by, for example, welding. Thus, the accumulator 50is supported by the support component 90 from below, which leads toreduction in a load of the accumulator 50 applied to the upper heatexchanger 30 and the lower heat exchanger 40 through the fixingcomponent 60. Therefore, supporting the accumulator 50 by the supportcomponent 90 from below can further prevent the upper heat exchanger 30and the lower heat exchanger 40 from being damaged.

Subsequently, an example of the fixing component 60 will be described.The fixing component 60 may be an integrally formed component, but inthe present embodiment, the fixing component 60 is comprised of thefirst fixing component 70 and a second fixing component 80.

FIG. 9 is a perspective view illustrating the first fixing component inthe outdoor unit for an air-conditioning apparatus according to theembodiment of the present disclosure, FIG. 10 is a perspective viewillustrating the second fixing component in the outdoor unit for anair-conditioning according to the embodiment of the present disclosure.Hereafter, the first fixing component 70 and the second fixing component80 will be described in detail with reference to FIG. 9 and FIG. 10, andFIGS. 5 to 8 described above.

The first fixing component 70 is a component to be fixed to theaccumulator 50. The first fixing component 70 includes a first fixingportion 71 and a second fixing portion 72. The first fixing portion 71is a plate-shaped portion to be fixed to the accumulator 50. In thepresent embodiment, the first fixing portion 71 is fixed to an outerperipheral surface of the cylindrical component 52 of the accumulator50. Therefore, the first fixing portion 71 is formed into an arc shapein a plan view with respect to the outer peripheral surface of thecylindrical component 52. In the present embodiment, the first fixingportion 71 is fixed to the accumulator 50 by welding.

The second fixing portion 72 is a plate-shaped portion to be fixed tothe second fixing component 80. In the present embodiment, the secondfixing portion 72 and the second fixing component 80 are fixedly screwedto each other with male screws 75. Therefore, for example, a pluralityof female threads 73 into which the respective male screws 75 arescrewed are formed in the second fixing portion 72. A claw portion 74 isformed in the second fixing portion 72, the claw portion 74 beingconfigured to engage with an opening 83 described later to temporarilyfix the first fixing component 70 and the second fixing component 80. Inthe present embodiment, the second fixing portion 72 protrudes from oneend of the first fixing portion 71. That is, the first fixing portion 71and the second fixing portion 72 form the first fixing component 70 tohave a substantially L shape in plan view. Specifically, theplate-shaped member is bent to have a substantially L shape in planview, thereby forming the first fixing component 70.

The second fixing component 80 is a plate-shaped portion to be fixed tothe first fixing component 70. The second fixing component 80 is acomponent to be fixed to the end plate 31 of the upper heat exchanger 30and the end plate 41 of the lower heat exchanger 40. The second fixingcomponent 80 includes a third fixing portion 81 and a fourth fixingportion 82, The third fixing portion 81 is fixedly screwed to the secondfixing portion 72 of the first fixing component 70 with the male screws75. Therefore, for example, a plurality of through holes 84 throughwhich the respective male screws 75 are formed in the third fixingportion 81. That is, the male screws 75 have passed through therespective through holes 84 are screwed into the respective femalethreads 73 in the second fixing portion 72 of the first fixing component70, whereby the third fixing portion 81 and the second fixing portion 72of the first fixing component 70 are fixed to each other. Moreover, theopening 83 at which the claw portion 74 is engaged is formed in thethird fixing portion 81 to temporarily fix the first fixing component 70and the second fixing component 80.

The fourth fixing portion 82 is a plate-shaped portion to be fixed tothe end plate 31 of the upper heat exchanger 30 and the end plate 41 ofthe lower heat exchanger 40. A through hole 85 through which the malescrew 87 passes is formed in the fourth fixing portion 82. Then, themale screw 87 having passed through the through hole 85 in the fourthfixing portion 82 is screwed into the female thread in the end plate 31of the upper heat exchanger 30, whereby the fourth fixing portion 82 isfixed to the end plate 31 of the upper heat exchanger 30. Moreover, athrough hole 86 through which the male screw 88 passes is formed in thefourth fixing portion 82. Then, the male screw 88 having passed throughthe through hole 86 in the fourth fixing portion 82 is screwed into thefemale thread in the end plate 41 of the lower heat exchanger 40,whereby the fourth fixing portion 82 is fixed to the end plate 41 of thelower heat exchanger 40.

In the present embodiment, one end of the third fixing portion 81 isconnected to one end of a connecting portion 80a. In plan view, thethird fixing portion 81 and the connecting portion 80 a are connectedwith inclination at substantially 90 degrees. The other end of theconnecting portion 80 a is connected to one end of the fourth fixingportion 82. In plan view, the connecting portion 80 a and the fourthfixing portion 82 are connected with inclination at a substantially 90degrees. That is, the third fixing portion 81, the connecting portion 80a, and the fourth fixing portion 82 form the second fixing component 80to have a substantially Z shape in plan view. Specifically, theplate-shaped member is bent to have a substantially Z shape in planview, thereby forming the second fixing component 80.

A first factory where the accumulator 50 is manufactured and a secondfactory where the accumulator 50 is fixed to the heat exchanger 20 maybe located at remote places. In this case, it is necessary to transportthe accumulator 50 manufactured in the first factory to the secondfactory. Here, a fixing portion between the accumulator 50 and thefixing component 60 is required to have the air-tightness to prevent therefrigerant from leaking out of the accumulator 50. Also in the presentembodiment, the accumulator 50 and the fixing component 60 are fixed toeach other by welding, to secure the air-tightness of the fixing portionbetween the accumulator 50 and the fixing component 60. Therefore, thefixing component 60 is fixed to the accumulator 50 in the first factory,and the accumulator 50 to which the fixing component 60 fixed istransported to the second factory.

Accordingly, when the fixing component 60 protrudes significantly fromthe accumulator 50 in a state in which the accumulator 50 and the fixingcomponent 60 are fixed to each other, a space required to transport theaccumulator 50 is increased, which may lead to an increase intransportation cost. In addition, when the fixing component 60 protrudessignificantly from the accumulator 50, the fixing component 60 may bedeformed during transportation of the accumulator 50. However, when thefirst fixing component 70 and the second fixing component 80 form thefixing component 60 as described above, the accumulator 50 can betransported to the second factory in a state in which the first fixingcomponent 70 that is part of the fixing component 60 is fixed to theaccumulator 50, Therefore, when the first fixing component 70 and thesecond fixing component 80 form the fixing component 60, the fixingcomponent 60 can be prevented from protruding significantly from theaccumulator 50 when the accumulator 50 is transported. Accordingly, whenthe first fixing component 70 and the second fixing component 80 formthe fixing component 60, the increase in the transportation cost of theaccumulator 50 can be prevented, and the deformation of the fixingcomponent 60 can be prevented.

Subsequently, a fixing procedure of the accumulator 50 will bedescribed. The support component 90 fixed to the accumulator 50 is fixedto the bottom plate 16 by, for example, screwing, in a state in whichthe lower heat exchanger 40 is installed on the bottom plate 16 and theupper heat exchanger 30 is installed above the lower heat exchanger 40.The claw portion 74 in the first fixing component 70 fixed to theaccumulator 50 engages with the opening 83 in the second fixingcomponent 80 to temporarily fix the first fixing component 70 and thesecond fixing component 80, Then, alignment of the female threads 73 inthe first fixing component 70 and the through holes 84 in the secondfixing component 80 is performed. In addition, alignment of the throughhole 85 in the second fixing component 80 and the female thread in theend plate 31 of the upper heat exchanger 30 is performed. Moreover,alignment of the through hole 86 in the second fixing component 80 andthe female thread in the end plate 41 of the lower heat exchanger 40 isperformed,

Then, the male screws 75 having passed through the respective throughholes 84 in the second fixing component 80 are screwed into therespective female threads 73 in the second fixing portion 72 of thefirst fixing component 70, whereby the first fixing component 70 and thesecond fixing component 80 are fixed to each other. In addition, themale screw 87 having passed through the through hole 85 of the fourthfixing portion 82 is screwed into the female thread in the end plate 31of the upper heat exchanger 30, whereby the second fixing component 80and the end plate 31 of the upper heat exchanger 30 are fixed to eachother. Moreover, the male screw 88 having passed through the throughhole 86 in the fourth fixing portion 82 is screwed into the femalethread in the end plate 41 of the lower heat exchanger 40, whereby thesecond fixing component 80 and the end plate 41 of the lower heatexchanger 40 are fixed to each other. That is, the accumulator 50 isfixed to both of the end plate 31 of the upper heat exchanger 30 and theend plate 41 of the lower heat exchanger 40 through the fixing component60 comprised of the first fixing component 70 and the second fixingcomponent 80.

As described above, the outdoor unit 1 for an air-conditioning apparatusaccording to the present embodiment includes the heat exchanger 20. Theheat exchanger 20 includes the upper heat exchanger 30 and the lowerheat exchanger 40 that are arranged in an up-down direction. The outdoorunit 1 for an air-conditioning apparatus according to the presentembodiment includes the accumulator 50 configured to store therefrigerant. In addition, the outdoor unit 1 for an air-conditioningapparatus according to the present embodiment includes the casing 10 inwhich the inside thereof is partitioned by the partition plate 11 intothe air-sending chamber 12 accommodating the heat exchanger 20 thereinand the machine chamber 13 accommodating the accumulator 50 therein.Moreover, the outdoor unit 1 for an air-conditioning apparatus accordingto the present embodiment includes the fixing component 60 configured tobe fixed to the heat exchanger 20 and the accumulator 50 so that theaccumulator 50 is fixed to the heat exchanger 20. Then, the fixingcomponent 60 is fixed to both of the upper heat exchanger 30 and thelower heat exchanger 40.

In the outdoor unit 1 for an air-conditioning apparatus according to thepresent embodiment, the accumulator 50 accommodated in the machinechamber 13 is fixed to both of the upper heat exchanger 30 and the lowerheat exchanger 40 by the fixing component 60. Therefore, the outdoorunit 1 for an air-conditioning apparatus according to the presentembodiment can prevent the accumulator 50 from being supported by onlyone of the upper heat exchanger 30 and the lower heat exchanger 40. Theoutdoor unit 1 for an air-conditioning apparatus according to thepresent embodiment can prevent the vibration of the accumulator 50generated during transportation or operation of the air-conditioningapparatus from acting on only one of the upper heat exchanger 30 and thelower heat exchanger 40. Accordingly, the outdoor unit 1 for anair-conditioning apparatus according to the present embodiment canprevent the upper heat exchanger 30 and the lower heat exchanger 40 frombeing damaged.

REFERENCE SIGNS LIST

1 outdoor unit 2 compressor 3 outdoor fan 10 casing 11 partition plate12 air-sending chamber 13 machine chamber 14 air inlet

14 a air inlet 14 b air inlet 15 air outlet 16 bottom plate 20 heatexchanger 30 upper heater exchanger 31 end plate 32 heat transfer fan 33heat transfer tube 34 connecting pipe 35 upper heat exchanger unit 40lower heat exchanger 41 end plate 42 heat transfer fin 43 heat transfertube 44 connecting pipe 45 lower heat exchanger unit 50 accumulator 51upper lid component 52 cylindrical component 53 lower lid component 54connecting pipe 60 fixing component 70 first fixing component 71 firstfixing portion 72 second fixing portion 73 female thread 74 claw portion75 male screw 80 second fixing component 80 a connecting portion 81third fixing portion 82 fourth fixing portion 83 opening 84 through hole85 through hole 86 through hole 87 male screw 88 male screw 90 supportcomponent

1. An outdoor unit for an air-conditioning apparatus, comprising: a heatexchanger comprised of an upper heat exchanger and a lower heatexchanger that are arranged in an up-down direction; an accumulatorconfigured to store refrigerant; a casing, an inside of which ispartitioned by a partition plate into an air-sending chamberaccommodating the heat exchanger and a machine chamber accommodating theaccumulator; and one fixing component configured to be fixed to the heatexchanger and the accumulator so that the accumulator is fixed to theheat exchanger, wherein the one fixing component is fixed to both of theupper heat exchanger and the lower heat exchanger.
 2. The outdoor unitfor an air-conditioning apparatus of claim 1, wherein the upper heatexchanger includes a first end plate provided in an end portion on acloser side to the machine chamber, the lower heat exchanger includes asecond end plate provided in an end portion on a closer side to themachine chamber, and the one fixing component is fixedly screwed to thefirst end plate and is fixedly screwed to the second plate.
 3. Theoutdoor unit for an air-conditioning apparatus of claim 1, furthercomprising: a support component configured to be fixed to a lowersurface portion of the casing and a lower surface portion of theaccumulator to support the accumulator from below.
 4. The outdoor unitfor an air-conditioning apparatus of claim 1, wherein the fixingcomponent includes a first fixing component fixed to the accumulator anda second fixing component fixed to the first fixing component and theheat exchanger, an opening is formed in one of the first fixingcomponent and the second fixing component, and a claw portion configuredto engage with the opening is formed in another of the first fixingcomponent and the second fixing component.